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A foundation model for the Earth system

Author

Listed:
  • Cristian Bodnar

    (Microsoft Research, AI for Science
    Silurian AI)

  • Wessel P. Bruinsma

    (Microsoft Research, AI for Science)

  • Ana Lucic

    (Microsoft Research, AI for Science
    University of Amsterdam)

  • Megan Stanley

    (Microsoft Research, AI for Science)

  • Anna Allen

    (University of Cambridge)

  • Johannes Brandstetter

    (Microsoft Research, AI for Science
    Johannes Kepler University Linz)

  • Patrick Garvan

    (Microsoft Research, AI for Science)

  • Maik Riechert

    (Microsoft Research, AI for Science)

  • Jonathan A. Weyn

    (Microsoft Corporation)

  • Haiyu Dong

    (Microsoft Corporation)

  • Jayesh K. Gupta

    (Silurian AI
    Microsoft Research)

  • Kit Thambiratnam

    (Microsoft Corporation)

  • Alexander T. Archibald

    (University of Cambridge)

  • Chun-Chieh Wu

    (National Taiwan University)

  • Elizabeth Heider

    (Microsoft Research, AI for Science)

  • Max Welling

    (Microsoft Research, AI for Science
    University of Amsterdam)

  • Richard E. Turner

    (Microsoft Research, AI for Science
    University of Cambridge
    Alan Turing Institute)

  • Paris Perdikaris

    (Microsoft Research, AI for Science
    University of Pennsylvania)

Abstract

Reliable forecasting of the Earth system is essential for mitigating natural disasters and supporting human progress. Traditional numerical models, although powerful, are extremely computationally expensive1. Recent advances in artificial intelligence (AI) have shown promise in improving both predictive performance and efficiency2,3, yet their potential remains underexplored in many Earth system domains. Here we introduce Aurora, a large-scale foundation model trained on more than one million hours of diverse geophysical data. Aurora outperforms operational forecasts in predicting air quality, ocean waves, tropical cyclone tracks and high-resolution weather, all at orders of magnitude lower computational cost. With the ability to be fine-tuned for diverse applications at modest expense, Aurora represents a notable step towards democratizing accurate and efficient Earth system predictions. These results highlight the transformative potential of AI in environmental forecasting and pave the way for broader accessibility to high-quality climate and weather information.

Suggested Citation

  • Cristian Bodnar & Wessel P. Bruinsma & Ana Lucic & Megan Stanley & Anna Allen & Johannes Brandstetter & Patrick Garvan & Maik Riechert & Jonathan A. Weyn & Haiyu Dong & Jayesh K. Gupta & Kit Thambirat, 2025. "A foundation model for the Earth system," Nature, Nature, vol. 641(8065), pages 1180-1187, May.
    • Handle: RePEc:nat:nature:v:641:y:2025:i:8065:d:10.1038_s41586-025-09005-y
    DOI: 10.1038/s41586-025-09005-y
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